CN110207028B - LED aluminum alloy lamp tube shell and processing equipment - Google Patents

Abstract

The application relates to an LED aluminum alloy lamp tube shell and processing equipment, wherein the LED aluminum alloy lamp tube shell comprises a shell body, the shell body is provided with an opening area, and a main mounting area, a cover plate mounting area and a circuit mounting area are formed in the shell body; at least two reinforcing roots are arranged in the outer shell, and the reinforcing roots are respectively connected to form a structure of a main mounting area; a contraction area is formed between the cover plate mounting area and the main mounting area; the pair of line mounting areas are arranged at intervals with the main mounting area; each strengthening root and the outer shell jointly form a through cavity. According to the LED aluminum alloy lamp tube shell, the front section size and the rear section size of a product can be kept consistent, so that the sizes of assembled clamping grooves can be ensured to be consistent, and the problem that the opening size of the product is unstable during extrusion production is solved; strengthen root cooperation shrink zone and lead to the chamber, be favorable to promoting the uniformity of LED aluminium alloy lamp tube shell, promoted the yield of product, reduced the rate of return of product to can ensure the product delivery period.

Description

LED aluminum alloy lamp tube shell and processing equipment

Technical Field

The application relates to the field of LED aluminum alloy lamp tube processing, in particular to an LED aluminum alloy lamp tube shell and processing equipment.

Background

The LED lamp tube is also commonly called a light tube and a fluorescent lamp tube, and the light source adopts an LED as a luminous body. The traditional fluorescent tube is also called as fluorescent lamp, two ends of the lamp are respectively provided with a filament, the tube is filled with trace argon and rarefied mercury vapor, the inner wall of the tube is coated with fluorescent powder, and when the gas between the two filaments is conductive, the gas emits ultraviolet rays, so that the fluorescent powder emits visible light. The LED lamp tube has many advantages, and is generally used for indoor illumination of common illumination, office buildings, markets, restaurants, schools, families, factories and the like. The LED lamp tube saves electricity by more than 70 percent, has the service life more than 10 times that of the common lamp tube (theoretically more than 50000 hours), is almost maintenance-free, and does not have the problem of frequently replacing the lamp tube, the ballast and the starter.

The LED lamp tube has the same external dimension and caliber as the traditional fluorescent lamp, and comprises a T5 lamp tube, a T8 lamp tube, a T10 lamp tube and the like; the length is 0.6m, 0.9m, 1.2m, 1.5m, 1.8m, 2.4m, etc. The LED lamp tube is provided with a shell, and a plurality of clamping grooves are formed in the shell and used for mounting electronic parts and LED lamp strips, so the size requirements of the clamping grooves are strict, and the assembly is influenced when the size of the clamping groove is too large or too small. And the LED lamp tube shell is usually made of aluminum alloy materials and is mainly produced by an aluminum extrusion process, and the size of the clamping groove is also controlled by aluminum extrusion.

Therefore, when extrusion production, can take place the opening size unstability scheduling problem of product, the draw-in groove size that also is the assembly is unstable, leads to the size of the anterior segment of product and the size of back end to differ greatly to cause the yield of product to hang down, the goods return rate is high, influences the delivery date.

Disclosure of Invention

Therefore, the need exists for an LED aluminum alloy lamp housing and a processing device.

An LED aluminum alloy lamp tube shell comprises a shell body, wherein the shell body is provided with an opening area, and a main mounting area, a cover plate mounting area and a circuit mounting area are formed in the shell body; the LED aluminum alloy lamp tube shell is provided with at least two reinforcing roots in the shell body, and the reinforcing roots are respectively connected to form a structure of the main mounting area; a contraction area is formed between the cover plate mounting area and the main mounting area; the number of the circuit mounting areas is one pair, and the pair of the circuit mounting areas and the main mounting area are arranged at intervals; each strengthen the root with the shell body forms jointly leads to the chamber and lead to the chamber with main installing zone and a pair of circuit installing zone looks interval sets up.

According to the LED aluminum alloy lamp tube shell, the design of the reinforcing roots is adopted, the size of the front section and the size of the rear section of a product can be kept consistent, so that the size of assembled clamping grooves can be ensured to be consistent, and the problem that the size of an opening of the product is unstable during extrusion production is solved; the design of the contraction zone is beneficial to installation and control of the position and light emission of an LED lamp panel of the LED aluminum alloy lamp tube; the design of the through cavity is beneficial to improving the heat dissipation effect of the LED lamp panel; strengthen root cooperation shrink zone and lead to the chamber, be favorable to promoting the uniformity of LED aluminium alloy lamp tube shell, promoted the yield of product, reduced the rate of return of product to can ensure the product delivery period.

In one embodiment, the LED aluminum alloy lamp housing is provided with a connecting portion and two symmetrical structural bodies inside the outer housing;

each group of structure bodies comprises a coarsening part, a supporting part, an inclined and contracted part, an inclined and expanded part, a bearing part, an intermediate part, a thickening part, a clamping part and a clamping arm;

the outer shell is provided with two tail end parts at the opening area, and each tail end part is matched with one coarsening part and one supporting part to jointly enclose one end of a cover plate installation area;

the coarsening part, the supporting part, the inclined shrinking part, the inclined expanding part, the bearing part and the middle part are sequentially connected;

the middle part is connected with the connecting part at the end part and is connected with the outer shell through the reinforcing root;

the inclined expansion part, the bearing part and the middle part together enclose one end of a main mounting area;

the thickening part is connected with the outer shell, the clamping part and the clamping arm are respectively connected with the thickening part, the clamping part and the clamping arm are arranged in a non-contact mode, and the thickening part, the clamping part and the clamping arm jointly enclose a circuit installation area;

the inclined parts of the two groups of the structures are oppositely arranged and matched to form the contraction area.

In one embodiment, the number of the reinforcing roots is two, and each group of the structural bodies includes one reinforcing root.

In one embodiment, the two groups of structural bodies include a first group of structural bodies and a second group of structural bodies, and the circuit mounting area includes a first circuit mounting area and a second circuit mounting area;

the first group of structure bodies comprise a first coarsening part, a first supporting part, a first inclined and contracted part, a first inclined and expanded part, a first bearing part, a first intermediate part, a first reinforcing root, a first thickening part, a first clamping part and a first clamping arm;

the second group of structural bodies comprise a second coarsening part, a second supporting part, a second inclined and contracted part, a second inclined and expanded part, a second bearing part, a second intermediate part, a second reinforcing root, a second thickening part, a second clamping part and a second clamping arm;

the outer shell has a first end portion and a second end portion at the opening area; the first tail part is matched with the first coarsening part and the first supporting part to form a first end of the cover plate mounting area together in a surrounding mode, and the second tail part is matched with the second coarsening part and the second supporting part to form a second end of the cover plate mounting area together in a surrounding mode;

the first coarsening part, the first supporting part, the first inclined and contracted part, the first inclined and expanded part, the first bearing part, the first section and the first reinforcing root are sequentially connected; the first section is connected with the connecting part at the end part of the first section, and one end of the first reinforcing root, which is far away from the first section, is connected with the outer shell; the first inclined expanding part, the first bearing part and the first section part jointly enclose a first end of a main mounting area;

the first thickening part is connected with the outer shell, the first clamping part and the first clamping arm are respectively connected with the first thickening part, the first clamping part and the first clamping arm are arranged in a non-contact mode, and the first thickening part, the first clamping part and the first clamping arm together enclose a first line installation area;

the first coarsening part, the first supporting part, the first inclined and contracted part, the first inclined and expanded part, the first bearing part, the first section and the first reinforcing root further form a first line cavity together with the outer shell;

the second coarsening part, the second support part, the second inclined and contracted part, the second inclined and expanded part, the second bearing part, the second section and the second reinforcing root are sequentially connected and arranged; the second section is connected with the connecting part at the end part of the second section, and one end of the second reinforcing root, which is far away from the second section, is connected with the outer shell; the second inclined expanding part, the second bearing part and the second section part jointly enclose a second end of the main mounting area;

the second thickening part is connected with the outer shell, the second clamping part and the second clamping arm are respectively connected with the second thickening part, the second clamping part and the second clamping arm are arranged in a non-contact mode, and the second thickening part, the second clamping part and the second clamping arm together enclose a second line installation area;

the second coarsening part, the second support part, the second inclined and contracted part, the second inclined and expanded part, the second bearing part, the second section and the second reinforcing root further form a second line cavity together with the outer shell;

the first inclined and contracted part and the second inclined and contracted part are oppositely arranged and matched to form the contracted area.

In one embodiment, the outer housing, the first terminal portion, the first roughened portion, the first supporting portion, the first inclined and contracted portion, the first inclined and expanded portion, the first bearing portion, the first intermediate portion, the first reinforcing rib, the first thickened portion, the first clamping arm, the connecting portion, the second terminal portion, the second roughened portion, the second supporting portion, the second inclined and contracted portion, the second inclined and expanded portion, the second bearing portion, the second intermediate portion, the second reinforcing rib, the second thickened portion, the second clamping portion, and the second clamping arm are integrally formed.

In one embodiment, the inclined portion and the inclined portion are formed with a contraction position at a position where the contraction region is closest to the main mounting region.

In one embodiment, the distal end portion is provided with a bent portion toward the main mounting area at an end thereof near the cover plate mounting area; alternatively, the tip portion is provided with a deformation protrusion or a friction thickening layer on a surface thereof facing the main mounting region.

In one embodiment, the outer side of the outer shell far away from the main mounting area is concavely provided with three groove areas, including a first groove area, a second groove area and a third groove area, each groove area is provided with at least two grooves, and the extending direction of each groove is the same as the extending direction of the outer shell.

In one embodiment, the outer shell is provided with a plurality of through holes at positions where the through cavities are formed, and the through cavities are communicated with the outside through the through holes.

A processing device comprises any one of the LED aluminum alloy lamp tube shells and a fixing assembly for fixing the LED aluminum alloy lamp tube shells.

Drawings

Fig. 1 is a schematic cross-sectional view of an embodiment of an LED aluminum alloy lamp housing according to the present application.

Fig. 2 is a schematic cross-sectional view of an embodiment of an LED aluminum alloy lamp housing according to the present application.

Fig. 3 is another schematic view of the embodiment shown in fig. 1.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of embodiments in many different forms than those described herein and that modifications may be made by one skilled in the art without departing from the spirit and scope of the application and it is therefore not intended to be limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In one embodiment of the application, the LED aluminum alloy lamp tube shell comprises a shell body, wherein the shell body is provided with an opening area, and a main mounting area, a cover plate mounting area and a circuit mounting area are formed in the shell body; the LED aluminum alloy lamp tube shell is provided with at least two reinforcing roots in the shell body, and the reinforcing roots are respectively connected to form a structure of the main mounting area; a contraction area is formed between the cover plate mounting area and the main mounting area; the number of the circuit mounting areas is one pair, and the pair of the circuit mounting areas and the main mounting area are arranged at intervals; each strengthen the root with the shell body forms jointly leads to the chamber and lead to the chamber with main installing zone and a pair of circuit installing zone looks interval sets up. According to the LED aluminum alloy lamp tube shell, the design of the reinforcing roots is adopted, the size of the front section and the size of the rear section of a product can be kept consistent, so that the size of assembled clamping grooves can be ensured to be consistent, and the problem that the size of an opening of the product is unstable during extrusion production is solved; the design of the contraction zone is beneficial to installation and control of the position and light emission of an LED lamp panel of the LED aluminum alloy lamp tube; the design of the through cavity is beneficial to improving the heat dissipation effect of the LED lamp panel; strengthen root cooperation shrink zone and lead to the chamber, be favorable to promoting the uniformity of LED aluminium alloy lamp tube shell, promoted the yield of product, reduced the rate of return of product to can ensure the product delivery period.

In one embodiment, the LED aluminum alloy lamp tube shell comprises a part of or the whole structure of the following embodiments; namely, the LED aluminum alloy lamp tube shell comprises the following technical characteristics in part or all. In one embodiment, the LED aluminum alloy lamp tube shell comprises an outer shell body, wherein the outer shell body is provided with an opening area, and a main mounting area, a cover plate mounting area and a circuit mounting area are formed in the outer shell body. The outer shell is the main body of the outer shell of the LED aluminum alloy lamp tube. The main mounting area is used for mounting main light-emitting and control structures such as an LED lamp panel, and the LED lamp panel is usually in a long strip shape and is mounted in the main mounting area in an end insertion mode. The hood mounting area is used to mount a lamp shade, which is also typically elongated and is mounted in the hood mounting area by insertion at the end. The line installation area is used for installing lines.

In one embodiment, the outer casing has an open area, i.e., the outer casing is not in a closed loop configuration, and in one embodiment, the outer casing has a first end and a second end at the open area; in one embodiment, the distal end portion is provided with a bent portion toward the main mounting area at an end thereof near the cover plate mounting area; alternatively, the tip portion is provided with a deformation protrusion or a friction thickening layer on a surface thereof facing the main mounting region. Such design is favorable to increasing the steadiness of lamp shade installation for the lamp shade is difficult for droing after the installation.

In one embodiment, at least two reinforcing roots are arranged in the outer shell of the LED aluminum alloy lamp tube, and the reinforcing roots are respectively connected to form a structure of the main mounting area; further, in one embodiment, the reinforcing roots are also connected to the outer shell, i.e. the reinforcing roots are also connected to the inside of the outer shell. In one embodiment, the number of the reinforcing roots is two, three, four or more. In one embodiment, the number of the reinforcing roots is one pair, two pairs, three pairs or more. The reinforcing root is one of important invention points of the application, and is used for supporting a structure forming the main mounting area, so that the structure of a product is reinforced, and the product is not easy to deform in production; and the existence of the reinforcing root promotes the structural stability and consistency of the main mounting area, and the size of the front section and the size of the rear section of the product are kept consistent, so that the size of the assembled clamping groove is consistent, and the problem that the size of the opening of the product is unstable during extrusion production is solved.

In one embodiment, a constricted region is formed between the hood panel mounting region and the main mounting region; the contraction zone is used for installing and controlling the position and the light emitting of the LED lamp panel of the LED aluminum alloy lamp tube, and the contraction degree of the contraction zone is properly adjusted according to the size, the light emitting position and the light emitting angle of the LED lamp panel, and the size of the contraction zone can be large or small.

In one embodiment, the number of the line installation areas is one pair, and the pair of line installation areas are arranged at intervals from the main installation area; the design of a pair of circuit installing areas is used for separating the circuit, is favorable to balancing the weight of LED aluminum alloy fluorescent tube on the one hand, and on the other hand is favorable to avoiding the circuit too densely, has promoted the security performance of LED aluminum alloy fluorescent tube.

In one embodiment, each reinforcing root and the outer shell jointly form a through cavity, and the through cavities are arranged at intervals with the main mounting area and the pair of line mounting areas. The design of the through cavity is beneficial to improving the heat dissipation effect of the LED lamp panel; in one embodiment, the outer shell is provided with a plurality of through holes at positions where the through cavities are formed, and the through cavities are communicated with the outside through the through holes. Such design is favorable to promoting the exhaust heat dissipation effect of logical chamber, is particularly suitable for being applied to indoor lighting. Strengthen root cooperation shrink zone and lead to the chamber, be favorable to promoting the uniformity of LED aluminium alloy lamp tube shell, promoted the yield of product, reduced the rate of return of product to can ensure the product delivery period.

In one embodiment, the outer side of the outer shell far away from the main mounting area is concavely provided with three groove areas, including a first groove area, a second groove area and a third groove area, each groove area is provided with at least two grooves, and the extending direction of each groove is the same as the extending direction of the outer shell. Such a design reduces the material consumption of the outer housing, saves resources to a certain extent and reduces the weight of the product, and is advantageous in that, in one embodiment, the first groove region is arranged adjacent to the through cavity, and the second and third groove regions are arranged adjacent to the opening region. Further, in one embodiment, the second and third groove regions are disposed adjacent to the opening region and have a plurality of air holes respectively opened toward the ground. Such design can promote the radiating effect, still has better rain-proof effect, is applicable to indoor or outdoor LED aluminum alloy fluorescent tube and uses. Further, in one embodiment, the first groove area is also provided with a plurality of air holes. By the design, the radiating effect can be improved, and the LED aluminum alloy lamp tube is suitable for indoor LED aluminum alloy lamp tubes.

In one embodiment, the LED aluminum alloy lamp housing is provided with a connecting portion and two symmetrical structural bodies inside the outer housing; each group of structure bodies comprises a coarsening part, a supporting part, an inclined and contracted part, an inclined and expanded part, a bearing part, an intermediate part, a thickening part, a clamping part and a clamping arm; the outer shell is provided with two tail end parts at the opening area, and each tail end part is matched with one coarsening part and one supporting part to jointly enclose one end of a cover plate installation area; the coarsening part, the supporting part, the inclined shrinking part, the inclined expanding part, the bearing part and the middle part are sequentially connected; the middle part is connected with the connecting part at the end part and is connected with the outer shell through the reinforcing root; the inclined expansion part, the bearing part and the middle part together enclose one end of a main mounting area; the thickening part is connected with the outer shell, the clamping part and the clamping arm are respectively connected with the thickening part, the clamping part and the clamping arm are arranged in a non-contact mode, and the thickening part, the clamping part and the clamping arm jointly enclose a circuit installation area; the inclined parts of the two groups of the structures are oppositely arranged and matched to form the contraction area. In one embodiment, the number of the reinforcing roots is two, and each group of the structural bodies comprises one reinforcing root, that is, each group of the structural bodies comprises a coarsening part, a supporting part, an inclined and contracted part, an inclined and expanded part, a bearing part, an intermediate part, a reinforcing root, a thickening part, a clamping part and a clamping arm. Further, in one embodiment, the reinforcing roots are respectively connected with the section, the connecting part and the outer shell. According to the design, the reinforcing roots are respectively connected with the intermediate part, the connecting part and the outer shell, and the assembling clamping groove of the product, namely the main mounting area, is not in a semi-suspended state, so that the stability of the product is enhanced, the difficulty of extrusion production is reduced, and the yield of production is improved. Further, in one embodiment, two sets of the structures are symmetrically arranged. The design of two sets of structures in the LED aluminum alloy lamp tube shell is favorable to simplifying the production design, is particularly favorable to cooperating the installation of LED lamp plate and lamp shade.

In one embodiment, the two groups of structural bodies include a first group of structural bodies and a second group of structural bodies, and the circuit mounting area includes a first circuit mounting area and a second circuit mounting area; the first group of structure bodies comprise a first coarsening part, a first supporting part, a first inclined and contracted part, a first inclined and expanded part, a first bearing part, a first intermediate part, a first reinforcing root, a first thickening part, a first clamping part and a first clamping arm; the second group of structural bodies comprise a second coarsening part, a second supporting part, a second inclined and contracted part, a second inclined and expanded part, a second bearing part, a second intermediate part, a second reinforcing root, a second thickening part, a second clamping part and a second clamping arm; the outer shell has a first end portion and a second end portion at the opening area; the first tail part is matched with the first coarsening part and the first supporting part to form a first end of the cover plate mounting area together in a surrounding mode, and the second tail part is matched with the second coarsening part and the second supporting part to form a second end of the cover plate mounting area together in a surrounding mode; the first coarsening part, the first supporting part, the first inclined and contracted part, the first inclined and expanded part, the first bearing part, the first section and the first reinforcing root are sequentially connected; the first section is connected with the connecting part at the end part of the first section, and one end of the first reinforcing root, which is far away from the first section, is connected with the outer shell; the first inclined expanding part, the first bearing part and the first section part jointly enclose a first end of a main mounting area; the first thickening part is connected with the outer shell, the first clamping part and the first clamping arm are respectively connected with the first thickening part, the first clamping part and the first clamping arm are arranged in a non-contact mode, and the first thickening part, the first clamping part and the first clamping arm together enclose a first line installation area; the first coarsening part, the first supporting part, the first inclining and contracting part, the first inclining and expanding part, the first bearing part, the first section and the first reinforcing root further form a first circuit cavity together with the outer shell, and the first circuit installation area is positioned in the first circuit cavity; the second coarsening part, the second support part, the second inclined and contracted part, the second inclined and expanded part, the second bearing part, the second section and the second reinforcing root are sequentially connected and arranged; the second section is connected with the connecting part at the end part of the second section, and one end of the second reinforcing root, which is far away from the second section, is connected with the outer shell; the second inclined expanding part, the second bearing part and the second section part jointly enclose a second end of the main mounting area; the second thickening part is connected with the outer shell, the second clamping part and the second clamping arm are respectively connected with the second thickening part, the second clamping part and the second clamping arm are arranged in a non-contact mode, and the second thickening part, the second clamping part and the second clamping arm together enclose a second line installation area; the second coarsening part, the second support part, the second inclined and contracted part, the second inclined and expanded part, the second bearing part, the second section part and the second reinforcing root further form a second circuit cavity together with the outer shell, and the second circuit installation area is positioned in the second circuit cavity; the first inclined and contracted part and the second inclined and contracted part are oppositely arranged and matched to form the contracted area. Such design has promoted the installation fastness at lamp shade position on the one hand, and on the other hand has promoted the installation fastness at LED lamp plate position, strengthens root cooperation shrink zone and logical chamber on the one hand again, is favorable to promoting the uniformity of LED aluminum alloy lamp tube shell, has promoted the yield of product, has reduced the rate of return of product to can ensure the product delivery date.

In one embodiment, the outer housing, the first terminal portion, the first roughened portion, the first supporting portion, the first inclined and contracted portion, the first inclined and expanded portion, the first bearing portion, the first intermediate portion, the first reinforcing rib, the first thickened portion, the first clamping arm, the connecting portion, the second terminal portion, the second roughened portion, the second supporting portion, the second inclined and contracted portion, the second inclined and expanded portion, the second bearing portion, the second intermediate portion, the second reinforcing rib, the second thickened portion, the second clamping portion, and the second clamping arm are integrally formed. By adopting the design, the LED aluminum alloy lamp tube shell can be conveniently produced, for example, by adopting extrusion production.

Further, in one embodiment, the first inclined part and the second inclined part form an included angle of 50 to 78 degrees. In one embodiment, the first inclined and expanded part and the second inclined and expanded part form an included angle of 120 to 170 degrees. In one embodiment, the inclined portion and the inclined portion are formed with a contraction position at a position where the contraction region is closest to the main mounting region. Namely, a contraction position is arranged at the position of the contraction area closest to the main installation area; in one embodiment, the constriction position is the position where the constriction region is narrowest; further, in one embodiment, a reflective layer is further disposed on a side of the inclined portion facing the contraction region, or a reflective surface layer is disposed on a side of the inclined portion facing the contraction region, or a side of the inclined portion facing the contraction region is smoothed to reflect light. The design of the contraction position aims at limiting the light-emitting position and the light-emitting direction of the LED aluminum alloy lamp tube, the light-emitting range is limited by the light-emitting position and the light-emitting direction, the two indexes of the light-emitting position and the light-emitting range are very important for the LED aluminum alloy lamp tube, the height and the mounting position of the LED aluminum alloy lamp tube are usually fixed when the LED aluminum alloy lamp tube is used, and the target illumination area is limited by the two indexes of the light-emitting position and the light-emitting range, so that the contraction position and the contraction position are designed to be beneficial to guiding the light-emitting position and the light-emitting range of the LED aluminum. The reflecting layer or the reflecting surface layer or the smooth processing is beneficial to reflecting or refracting the light reflected by the lampshade to the inclined part, so that the light irradiates the outside through the lampshade to improve the illumination efficiency and the brightness.

In one embodiment, as shown in fig. 1, an LED aluminum alloy lamp tube housing comprises an outer housing 100, wherein the outer housing 100 has an opening area 240, and a main mounting area 210, a cover plate mounting area 230 and a circuit mounting area are formed in the outer housing 100; the number of the line installation areas is a pair, and the line installation areas and the main installation area 210 are arranged at intervals; a pair of the line mount areas includes a first line mount area 250 and a second line mount area 260; the first circuit mount area 250 is located in the first circuit cavity 270 and the second circuit mount area 260 is located in the second circuit cavity 280. A constricted region 220 is formed between the hood plate mounting region 230 and the main mounting region 210; each reinforcing member and the outer casing 100 together form a through cavity 290, and the through cavity 290 is disposed at an interval from the main installation region 210, the first line installation region 250 and the second line installation region 260. In one embodiment, three groove areas are recessed on the outer side of the outer casing 100 away from the main mounting area 210, including a first groove area 201, a second groove area 202 and a third groove area 203, each of the groove areas has at least two grooves, and the extending direction of each of the grooves is the same as the extending direction of the outer casing 100.

In one embodiment, as shown in fig. 2, at least two reinforcing bars are disposed in the outer casing 100 of the LED aluminum alloy lamp housing, and each reinforcing bar is connected to form the structure of the main mounting region 210; the LED aluminum alloy lamp tube shell is provided with a connecting part 110 and two symmetrical structural bodies in the outer shell 100; the two groups of structures comprise a first group of structures and a second group of structures. The first group of structural bodies comprises a first coarsening part 102, a first supporting part 103, a first inclined and contracted part 104, a first inclined and expanded part 105, a first bearing part 106, a first interval part 107, a first reinforcing root 108, a first thickening part 121, a first clamping part 122 and a first clamping arm 123; the second group of structural bodies comprises a second coarsening part 112, a second supporting part 113, a second inclined and contracted part 114, a second inclined and expanded part 115, a second bearing part 116, a second section 117, a second reinforcing root 118, a second thickened part 131, a second clamping part 132 and a second clamping arm 133; the outer housing 100 has a first end portion 101 and a second end portion 111 at the opening area 240; referring to fig. 3, the first end portion 101 cooperates with the first roughened portion 102 and the first supporting portion 103 to form a first end 231 of the mask mounting area, and the second end portion 111 cooperates with the second roughened portion 112 and the second supporting portion 113 to form a second end of the mask mounting area; the first roughened portion 102, the first supporting portion 103, the first inclined portion 104, the first inclined portion 105, the first bearing portion 106, the first intermediate portion 107, and the first reinforcing root 108 are sequentially connected; the first section 107 is connected to the connecting portion 110 at an end thereof and an end of the first reinforcing root 108 away from the first section 107 is connected to the outer shell 100; the first inclined and expanded part 105, the first bearing part 106 and the first intermediate part 107 together enclose a first end of a main mounting area; the first thickened portion 121 is connected to the outer housing 100, the first clamping portion 122 and the first clamping arm 123 are respectively connected to the first thickened portion 121, the first clamping portion 122 and the first clamping arm 123 are arranged in a non-contact manner, and the first thickened portion 121, the first clamping portion 122 and the first clamping arm 123 together enclose a first line installation area 250; the first roughened portion 102, the first supporting portion 103, the first inclined portion 104, the first inclined portion 105, the first bearing portion 106, the first intermediate portion 107 and the first reinforcing root 108 further form a first line cavity 270 together with the outer casing 100; the second roughened portion 112, the second supporting portion 113, the second inclined portion 114, the second enlarged portion 115, the second bearing portion 116, the second section 117, and the second reinforcing root 118 are sequentially connected; the second section 117 is connected to the connecting portion 110 at an end thereof and the end of the second reinforcing root 118 away from the second section 117 is connected to the outer shell 100; the second inclined expanding part 115, the second bearing part 116 and the second intermediate part 117 together enclose a second end of the main mounting area; the second enlarged thickness portion 131 is connected to the outer housing 100, the second clamping portion 132 and the second clamping arm 133 are respectively connected to the second enlarged thickness portion 131, the second clamping portion 132 and the second clamping arm 133 are disposed in a non-contact manner, and the second enlarged thickness portion 131, the second clamping portion 132 and the second clamping arm 133 together enclose a second circuit mounting area 260; the second roughened portion 112, the second supporting portion 113, the second inclined portion 114, the second inclined portion 115, the second bearing portion 116, the second section 117 and the second reinforcing root 118 together with the outer casing 100 form a second line cavity 280; the first inclined portion 104 and the second inclined portion 114 are disposed opposite to each other and cooperate to form the contraction area 220. The inclined and flared portions form a constricted location 204 at a location of the constricted region 220 closest to the main mounting region 210. In one embodiment, the outer housing 100, the first terminal portion 101, the first roughened portion 102, the first support portion 103, the first inclined and contracted portion 104, the first inclined and expanded portion 105, the first bearing portion 106, the first intermediate portion 107, the first reinforcing root 108, the first thickened portion 121, the first clamping portion 122, the first clamping arm 123, the connecting portion 110, the second terminal portion 111, the second roughened portion 112, the second support portion 113, the second inclined and contracted portion 114, the second inclined and expanded portion 115, the second bearing portion 116, the second intermediate portion 117, the second reinforcing root 118, the second thickened portion 131, the second clamping portion 132, and the second clamping arm 133 are integrally formed.

In one embodiment, the width of the main mounting area 210 is 25 + -0.2 mm, the width of the cover plate mounting area 230 is 29.6 + -0.2 mm, and the width of the opening area 240 is 26 + -0.2 mm. In one embodiment, the constriction 204 is less than 20mm wide.

In one embodiment, a processing apparatus comprises an extrusion device for extruding the LED aluminum alloy lamp tube housing of any one of the embodiments. In one embodiment, a processing apparatus includes the LED aluminum alloy lamp tube housing of any one of the embodiments and a fixing assembly for fixing the LED aluminum alloy lamp tube housing. Further, in one embodiment, the processing device may further include other components to form a multifunctional processing apparatus.

In one embodiment, the processing device further comprises a clamping device, wherein the clamping device comprises a base, a fixing structure and a driving structure; the fixing structure comprises a lower fixing block and an upper fixing block, the lower fixing block is fixed on the base, N clamping grooves are formed between the lower fixing block and the upper fixing block, each clamping groove is used for penetrating a workpiece to be machined, and the lower fixing block and the upper fixing block are used for clamping and fixing no more than N workpieces to be machined through the clamping grooves; the workpiece to be processed is the LED aluminum alloy lamp tube shell; the fixing component and the fixing structure are combined, namely the clamping device comprises a base, the fixing component and a driving structure, and the rest embodiments are analogized in the same way; wherein N is a natural number greater than 1 and less than 8; the driving structure comprises an air cylinder connecting block and an air cylinder, the air cylinder is fixed on the base, and the air cylinder connecting block is connected to the upper fixing block; the cylinder drives the cylinder connecting block through the output rod of the cylinder and drives the upper fixing block to move up and down relative to the lower fixing block, so that the lower fixing block and the upper fixing block clamp or loosen a workpiece to be machined in the clamping groove together. The design can clamp and fix the long material of the section so as to process, different long materials of the section can be fixed through different shapes of the clamping grooves, at least two workpieces to be processed can be processed at the same time on the basis of processing cooperation through the number design of the clamping grooves, and the production efficiency is high. In one embodiment, the base comprises a base plate and/or a frame; in one embodiment, the base is a base plate. In one embodiment, a deformation layer is arranged at the position where the clamping groove is contacted with the workpiece to be processed. Such design can the fixed section bar of centre gripping long material so that process, can fix different section bar long materials through the design of different centre gripping groove shapes, and when the machined part was treated in the centre gripping, deformation of certain degree can take place for the deformation layer, is favorable to guaranteeing clamping strength to be favorable to cooperating subsequent process. In one embodiment, the number of the clamping grooves is two, three or four. In one embodiment, the clamping grooves are regularly arranged. Further, in one embodiment, the clamping grooves are regularly arranged to form a straight line or an arc line. Further, in one embodiment, the clamping grooves have circular cross sections, and the centers of the circular cross sections of the clamping grooves are located on the same arc line. Or, in one embodiment, the clamping grooves have circular cross sections, and the centers of the circular cross sections of the clamping grooves are located on the same straight line. By the design, at least two workpieces to be processed can be processed at the same time on the basis of processing cooperation through the quantity design of the clamping grooves, the production efficiency is high, the production cost is effectively reduced, and the competitive advantage is remarkably improved. In one embodiment, the cylinder is located at a middle position or at one side of the fixed structure. Further, in one embodiment, a spacing groove is formed in the middle of the fixing structure, the air cylinder is located in the spacing groove, the air cylinder connecting block is fixedly connected to the upper portion of the upper fixing block, the output rod is located in the spacing groove or outside the spacing groove, and the output rod is connected with the air cylinder connecting block. Such design is favorable to realizing middle independent control, provides more balanced application of force through the cylinder connecting block, drives go up the fixed block for lower fixed block reciprocates, and presses and hold the effect better. In one embodiment, the number of the cylinders is two, and the two cylinders are respectively located on two sides of the fixing structure. By means of the design, the driving force which is balanced can be output, the cylinder connecting block is driven, the upper fixing block is driven to move up and down relative to the lower fixing block, and a good pressing effect is achieved. Further, in one embodiment, the clamping device further includes a pushing structure, the pushing structure is fixed on the base and is in linkage with the driving structure, and the pushing structure is used for pushing the workpiece to be processed to move towards the clamping groove in cooperation with the lower fixing block and the upper fixing block when the clamping groove is released by the lower fixing block and the upper fixing block together. Namely, when the cylinder drives the cylinder connecting block through the output rod of the cylinder and drives the upper fixing block to move upwards relative to the lower fixing block, the clamping groove is loosened, the clamping device or the driving structure enables the pushing structure, and the workpiece to be pushed moves towards the clamping groove. In one embodiment, the pushing structure is used for pushing all the workpieces to be processed on the base to move towards each clamping groove respectively. In one embodiment, the pushing structure is used for pushing the workpiece to be processed to move towards the clamping groove in a stepping mode. In one embodiment, the pushing structure is used for pushing all the workpieces to be processed on the base to move towards each clamping groove in a stepping mode. By means of the design, automatic piece feeding can be achieved, full-automatic processing or semi-automatic processing can be achieved by matching with a corresponding control mode, labor cost is saved, and processing efficiency is further improved. Further, in one embodiment, the pushing structure comprises a roller structure, in one embodiment, the roller structure is coated with a skin layer, and in one embodiment, the skin layer is a rubber layer. Such design is favorable to promoting frictional force on the one hand, controls better and treats that the machined part removes, and on the other hand is favorable to changing the epidermal layer, and is convenient for lasting being suitable for. Further, in one embodiment, the clamping device further comprises a linkage rod, the pushing structure is connected with the linkage rod, the linkage rod is connected with the driving structure, and the driving structure is in linkage arrangement with the pushing structure through the linkage rod. In one embodiment, the linkage rod comprises a first connecting rod, a coupling sleeve and a second connecting rod, the output rod is connected with the first connecting rod, the first connecting rod and the second connecting rod are respectively coupled in the coupling sleeve in an axle mode or the first connecting rod is coupled in the coupling sleeve in an axle mode and the second connecting rod is coupled outside the coupling sleeve in an axle mode, and the second connecting rod is connected with the pushing structure. Due to the design, effective linkage control can be realized, and the pushing structure can be well controlled to cooperate with the driving structure to perform linkage processing. In one embodiment, the bottom of the base is provided with a mobile device and a fixed device thereof; in one embodiment, the mobile device comprises a roller, and the fixing device comprises a lifting bracket, wherein the lifting bracket is used for adjusting the height of the base relative to a bearing position such as the ground, so that the roller can roll along the base when contacting the bearing position or be separated from the bearing position to prevent the base from moving. In one embodiment, the clamping device is further provided with a receiving structure at a position adjacent to the clamping groove beside the base, the receiving structure is detachably fixed on the base, and the bottom of the receiving structure is provided with a buffer structure. Due to the design, collection of the processed workpieces, such as the LED aluminum alloy lamp tube shell which is in compliance, can be facilitated, on one hand, the processed workpieces can be prevented from being controlled, and on the other hand, protection of the processed workpieces is facilitated. Further, in one embodiment, the receiving structure includes a conveyor belt, so that one piece can be automatically conveyed after being processed. Further, in one embodiment, a scrap collecting device is further arranged beside the base and adjacent to the clamping groove and used for collecting scraps, so that the working site is cleaner and safer, the health of constructors is guaranteed, and the scraps are recycled. In one embodiment, the debris collection device may be implemented using a vacuum cleaner or the like. In one embodiment, the bottom of the base is provided with a mobile device and a fixed device thereof; the base comprises a base plate and/or a frame; the clamping device is further provided with a bearing structure at a position close to the clamping groove beside the base, the bearing structure is detachably fixed on the base, and a buffer structure is arranged at the bottom of the bearing structure. In one embodiment, the processing device further comprises a sawing device, namely a sawing assembly, the sawing device is positioned on one side of the clamping groove and the sawing device is positioned above the base; and/or the sawing device is positioned above the filter screen washing hopper. And/or, in one embodiment, the processing device further comprises a drilling device, wherein the drilling device is positioned on one side of the clamping groove and is positioned above the base. And/or, in one embodiment, the processing device further comprises a slotting device, wherein the slotting device is positioned at one side of the clamping groove and is positioned above the base. The rest of the examples are analogized.

In one embodiment, the processing device further comprises a drilling device, and the drilling device is arranged at a distance from the fixing component; in one embodiment, the processing device further comprises an operation table, and the fixing assembly, the drilling device and the base or the clamping device are arranged on the operation table at intervals. And/or, in one embodiment, the processing device further comprises a slotting device which is arranged on the operating platform and is spaced from the die. The rest of the examples are analogized.

In one embodiment, the processing device further comprises a drilling tapping machine and a drilling tapping machine head thereof, wherein the drilling tapping machine head is positioned above the processing position and/or above the filter screen washing hopper. In one embodiment, the drilling tapping head is fixed on the operating platform or fixed on the side of the operating platform and is positioned above the processing position. In one embodiment, the drilling and tapping machine further comprises an automatic air blowing device for automatically blowing chips, wherein the automatic air blowing device is fixed on the table portion. In one embodiment, the automatic blowing device comprises a control device, a fixing structure and a blowing pipe. In one embodiment, the air outlet end of the air blowing pipe is used for facing the area to be blown; further, in one embodiment, the region to be blown includes a plurality of tapping positions, the number of air outlet ends of the blowing pipe is multiple, the air outlet ends are arranged in one-to-one correspondence with the tapping positions, and each air outlet end faces one tapping position; or in one embodiment, the region to be blown includes a plurality of tapping positions, the number of the blowing pipes is multiple, the air outlet end of each blowing pipe corresponds to each tapping position one by one, and the air outlet end of each blowing pipe faces one tapping position. Further, in one embodiment, the region to be blown includes a plurality of tapping positions, each tapping position is provided with a gas outlet end of a blowing pipe, an included angle between gas outlet directions of two adjacent gas outlet ends is 25 degrees to 65 degrees, and the gas outlet direction of each gas outlet end forms a 120-degree sector; the effective design of the air blowing pipe is a technical problem which is worthy of attention, and particularly is a better invention point for the matching design of a multi-shaft tapping machine, one air blowing pipe or an air outlet end of each tapping position is correspondingly designed, the included angle of the air outlet directions of two adjacent air outlet ends is not too large, and the air blowing pipes can be preferably gathered together to form an air gathering effect, so that on one hand, chips are blown away, on the other hand, the wind force is prevented from being counteracted with each other, on the other hand, a resultant force can be formed to face an area as far as possible, so that the chips can be recycled, and the working environment of constructors is protected to avoid affecting the health of constructors. Therefore, the manual blowing of aluminum scraps is not needed, the manual blowing working hour is favorably reduced, and the next product can be directly processed in a matching manner, so that the production efficiency and the productivity are increased; in cooperation with other auxiliary structures, the aluminum chip automatic tapping machine can also realize the aim at all positions where aluminum chips can be generated, and automatically blows the surface of a product and the aluminum chips in the tapping auxiliary jig completely in the process of ascending the machine head after the drilling or tapping process is completed, so that the automation of the production process is realized, the working efficiency is improved, and meanwhile, the product quality is favorably improved.

In one embodiment, the control device is used for controlling the air blowing pipe to blow air; further, in one embodiment, the control device is used for controlling the opening or closing of the air blowing pipe to blow air; or the control device is used for controlling the input of the air blowing pipe to blow air; in one embodiment, the automatic air blowing device further comprises an air blower, the output end of the air blower is communicated with the air blowing pipe, the control device is connected with the air blower, and the control device is used for controlling the air blower to blow air through the air blowing pipe. Further, in one embodiment, the control device is further configured to control the position and/or direction of the air outlet end of the air blowing pipe. Such design can insert the air-blower and also can insert other air supply equipment, as long as controlling means can control the gas blow pipe and supply air can, in further design, controlling means can control the position of the end of giving vent to anger of gas blow pipe to realize better bits effect of blowing in coordination. In one embodiment, the control device controls the air blowing pipe to blow air during tapping; or the control device controls the air blowing pipe to blow air after tapping. In one embodiment, the automatic air blowing device further comprises a detection device, the detection device is connected with the control device, and the detection device is used for starting the control device to control the air blowing pipe to blow air when tapping is detected to be completed. Further, in one embodiment, the control device is used for cooperating with a controller of a multi-axis tapping machine tool to control the gas blowing pipe to blow gas according to a tapping operation process of the controller. In one embodiment, the controller does not need to blow air when tapping is started, when the tapping progress reaches 30%, namely the tapping operation process reaches 30%, the control device controls the air blowing pipe to blow air according to 50% of the maximum power, when the tapping progress reaches 65%, namely the tapping operation process reaches 65%, the control device controls the air blowing pipe to blow air according to 90% of the maximum power, when the tapping progress reaches 75%, namely the tapping operation process reaches 75%, the control device controls the air blowing pipe to blow air according to the maximum power, when the tapping progress reaches 100%, namely the tapping operation process is completed, the control device controls the air blowing pipe to continue blowing air according to the maximum power for 1-2 seconds, and then the control device stops and waits for the next tapping operation process. The design is favorable for saving energy consumption on the premise of ensuring the cleaning efficiency, and according to the operation realization, the energy is saved by about 50-68% compared with the full process of blowing according to the maximum power, the tapping effect and the chip removal effect are not influenced in the test, and the cleaning effect is better by matching with the control of the position of the air outlet end of the air blowing pipe. Further, in one embodiment, the tapping operation of the controller is performed in two stages, the controller does not need to blow air when the first stage tapping is started, the control device controls the air blowing pipe to blow air for 2-4 seconds according to the maximum power of 70-80 percent when the first stage tapping is finished, then stopping the tapping, when the tapping progress of the second section reaches 30%, controlling the air blowing pipe to blow air according to 50% of the maximum power, when the tapping progress reaches 65%, the control device controls the air blowing pipe to blow air according to 90 percent of maximum power, when the tapping progress reaches 75 percent, the control device controls the air blowing pipe to blow air according to the maximum power, when the tapping progress reaches 100 percent, and the control device controls the air blowing pipe to continuously blow air for 1-2 seconds according to the maximum power, and then the air blowing pipe is stopped to wait for the next tapping operation procedure. This design is suitable for the tapping process of the sectional operation. In one embodiment, the automatic air blowing device further comprises a telescopic device, the telescopic device is connected with the detection device and the air outlet end of the air blowing pipe, the detection device is further used for starting the telescopic device to extend out of the air outlet end of the air blowing pipe to the area to be blown when tapping is detected to be completed, and the telescopic device is started to retract the air outlet end of the air blowing pipe when tapping is about to start. Further, in one embodiment, the automatic blowing device further comprises a telescopic device, the telescopic device is connected with the control device and the air outlet end of the blowing pipe, the control device is further used for starting the telescopic device to extend out of the air outlet end of the blowing pipe to the area to be blown in the tapping process, and when tapping is completed, the telescopic device is started to retract the air outlet end of the blowing pipe. Further, in one embodiment, the telescopic device is used for extending out of the air outlet end of the air blowing pipe to the area to be blown and to be adjacent to the tapping position, and in one embodiment, the telescopic device is used for extending out of the air outlet end of the air blowing pipe to the area to be blown and to be 1-3 cm from the tapping position. For thinner tool bits, the distance can be smaller, for thicker tool bits, the distance can be larger, and the arrangement can be carried out according to actual conditions. For the design of a plurality of air blowing pipes or a plurality of air outlet ends, further, in one embodiment, the telescopic device is used for extending out of each air blowing pipe or the air outlet end thereof, so that the air outlet end of each air blowing pipe and the corresponding tapping position are 1-3 cm. Due to the design, the telescopic device can be flexibly adjusted according to the production process and the working procedures, and the blowing effect can be favorably improved.

In one embodiment, the automatic air blowing device further comprises a collecting assembly, the collecting assembly is connected with the control device, and the collecting assembly is used for collecting when the control device is started. Further, in one embodiment, the region to be blown is located between the collecting assembly and the air outlet end of the blowing pipe. Further, in one embodiment, the collection assembly is linked to the control device. In one embodiment, the collection assembly is coupled to the telescoping device. In one embodiment, the collection assembly includes a landing zone for landing debris. In one embodiment, the collection assembly includes a receiving area for receiving debris and a suction device for suctioning the defined debris. In one embodiment, the adsorption device comprises an electrostatic adsorption device; alternatively, in one of the embodiments, the adsorption means comprises an air suction means; the air suction device is similar to a vacuum cleaner. Such design is favorable to retrieving the piece, protects constructor's operational environment in order to avoid influencing constructor's health. In one embodiment, the fixing structure is used for fixing the control device. In one embodiment, the securing structure comprises a screw, an insert and/or a press block. In one embodiment, the fixing structure is used for fixing the control device beside the area to be blown or on the operation table. Such a design facilitates the disassembly or adjustment of the control device. In one embodiment, the drilling tapping head is fixed on the table part and a cutter head of the drilling tapping head is positioned above the table part; the control device is fixed to the table portion by the fixing structure; the table portion is provided with a fixing position used for fixing a workpiece to be machined, the air outlet end of the air blowing pipe faces the upper portion of the fixing position, and the air outlet end of the air blowing pipe is higher than the workpiece to be machined. In one embodiment, the control device is connected with a controller of the drilling tapping machine head, and the blowing pipe is cooperatively controlled to blow air according to the controller. In one embodiment, the control device is detachably fixed to the table portion by the fixing structure. Further, in one embodiment, the number of the blowing pipes is multiple, or the number of the air outlet ends of the blowing pipes is multiple. Further, in one embodiment, the fixing position includes a fastening member, a slide rail structure, and a fixing area slidably disposed on the slide rail structure, the slide rail structure is disposed on the table portion, and the fastening member is used to fasten the fixing area on the table portion or release the fixing area. Due to the design, the workpiece to be machined can be conveniently conveyed. Further, in one embodiment, the fastener is linked with the control device. In order to realize the multi-axis tapping automation in the production line, further, in one embodiment, the number of the fixing areas is multiple, and the slide rail structures are sequentially and alternately arranged on the slide rail structures in a sliding manner; or each fixed area integrally forms a reciprocating type transmission fixed plate, when each fixed area slides to the working position of the drilling tapping machine head, the control device controls the buckling piece to fix the fixed area, then the tapping process is executed, and the blowing treatment is carried out. Further, in one embodiment, the drilling tapping machine head is provided with a support, a machine body, a tool rest, a tool and a tool bit, wherein the support is fixedly arranged on the table part or on the side part of the table part, the machine body is fixedly arranged on the support, and a controller and the like are arranged in the machine body; the tool rest is installed on the machine body and faces the fixing position of the table portion, the tools are installed on the tool rest and face the table portion, the number of the tools is multiple, each tool is connected with the controller, and the tool bit is installed on the tool and faces the fixing position of the table portion, namely, the position of a workpiece to be machined. Further, in one embodiment, the air blowing pipe is sequentially provided with an air inlet end, a first bending part, an air inlet connecting section, an air outlet connecting section, a second bending part, a position avoiding section, a third bending part and an air outlet end, wherein the air inlet end is used for connecting air conveying equipment such as a blower and the like, the first bending part is matched with the air inlet connecting section to form a first gap area, and the first gap area is used for realizing the shock-absorbing function; the air inlet connecting section is communicated with the air outlet connecting section through a control device, or the air inlet connecting section is communicated with the air outlet connecting section through a valve, and the control device controls the valve to be opened or closed; the air outlet connecting section and the table part form a second gap area which is used for realizing the shock absorption function; the second bending part is matched with the avoidance section and the third bending part to jointly form an avoidance area, and the avoidance area is used for enabling a certain distance to be formed between the air outlet direction of the air outlet end and the workpiece to be machined, so that the surface of the workpiece to be machined and aluminum scraps in the tapping auxiliary jig can be blown out conveniently.

Further, in one embodiment, the processing device further comprises a cleaning device, wherein the cleaning device comprises a machine base, a machine body, an ultrasonic generator and a control switch thereof; the machine base is arranged close to the saw cutting device or the drilling tapping machine head, the machine body is fixed on the machine base, the machine base is fixed on the operating table, a cleaning cavity and an installation cavity which are communicated are formed in the machine body, the machine body is provided with an opening, the cleaning cavity is communicated with the opening and is used for accommodating a product to be cleaned, the ultrasonic generator is fixed in the installation cavity, and the output surface of the ultrasonic generator faces the cleaning cavity; the machine body is provided with a communicating pipeline, the communicating pipeline is communicated with the outer surface of the machine body and the cleaning cavity, the control switch is electrically connected with the ultrasonic generator through a lead, and at least part of the lead penetrates through the communicating pipeline. In one embodiment, the ultrasonic generator has a magnetic force transducer or a piezoelectric transducer; in one embodiment, the output frequency of the ultrasonic generator is 20kHz to 40 kHz; in one embodiment, the output frequency of the ultrasonic generator is 20kHz to 30 kHz. In one embodiment, the output frequency of the ultrasonic generator is 30kHz to 40 kHz. Further, in one embodiment, the machine base is a frame structure; the bottom of the machine body is provided with a liquid discharge hole and a valve thereof; the ultrasonic cleaning device also comprises a liquid discharge pipeline communicated with the valve. Such a design is advantageous for achieving a discharge of the cleaning liquid. Further, in one embodiment, the base is provided with a moving device and a fixing device thereof at the bottom; in one embodiment, the moving device includes a roller, and the fixing device includes a lifting bracket for adjusting the height of the base relative to a bearing position, such as the ground, so that the roller can roll along the base or be out of contact with the bearing position to make the base immovable when contacting the bearing position. The design is beneficial to realizing the integral movement and fixation of the ultrasonic cleaning device. In one embodiment, the output face of the ultrasonic generator faces the cleaning region of the cleaning chamber. Further, in one embodiment, the number of the installation cavities is multiple, the number of the ultrasonic generators is multiple, each ultrasonic generator is arranged in one-to-one correspondence to each installation cavity, and the output surface of each ultrasonic generator is located on the same straight line or the same arc line. Further, in one embodiment, the control switches are respectively electrically connected with the ultrasonic generators through wires. Further, in one embodiment, the ultrasonic cleaning device further comprises a timing controller connected to the control switch. By adopting the design, timing control can be realized, for example, each time of timing cleaning is 5 minutes or 10 minutes, and the like. Further, in one embodiment, the communication pipe is arranged in a sealing and waterproof manner; the design is beneficial to water and insect prevention on one hand, and is beneficial to the convenience of workers for controlling the ultrasonic generator outside the machine body through the control switch on the other hand. In one embodiment, the ultrasonic cleaning device further comprises at least one support structure for supporting a product to be cleaned, and each support structure is disposed in the cleaning chamber. In one embodiment, the inner wall of the machine body is provided with fixing grooves, and the support structures are respectively fixed in the fixing grooves. In one embodiment, a shelf layer is formed in the wash chamber by each of the shelf structures being secured by each of the securing slots. Further, in one embodiment, each of the scaffold structures forms a plurality of scaffold layers in the wash chamber; each of the scaffold layers comprises two of the scaffold structures. Further, in one embodiment, the support structure has a strainer structure. Further, in one embodiment, the support structure is a strainer basket, i.e., a drain basket. The poplar design can conveniently drain residual cleaning solution when cleaning is finished. In one embodiment, the body is provided with a liquid storage area and a material storage area at a position close to the opening. The liquid storage area is used for storing cleaning liquid, and the material storage area is used for storing materials required by cleaning, such as solid cleaning powder and the like. In one embodiment, the liquid storage area and the material storage area are arranged side by side. In one embodiment, the machine body is provided with a liquid storage area and a material storage area at positions close to the opening, and the liquid storage area and the material storage area are arranged side by side. Further, in one embodiment, the body is provided with covering bodies in the liquid storage area and the material storage area respectively. Further, in one embodiment, the liquid storage area is communicated with the cleaning cavity, the liquid storage area is provided with a liquid containing groove body, the liquid containing groove body is axially connected in the liquid storage area, the liquid containing groove body is used for storing cleaning liquid, and when the cleaning device is required to be used, the cleaning liquid in the cleaning cavity can be poured out by rotating the liquid containing groove body. Further, in one of the embodiments, the storage area is communicated with the cleaning cavity, the storage area is provided with a containing groove body, the containing groove body is connected to the storage area through a shaft, the containing groove body is used for storing cleaning materials, and when the cleaning device is required to be used, the cleaning materials in the containing groove body can be poured out through rotating the containing groove body. By the design, different cleaning formulas can be flexibly and conveniently set, and a better cleaning effect is obtained. In one embodiment, the body is provided with a flexible receiving area at a position close to the opening. Further, in one embodiment, the flexible landing zone has an outlet opening into the wash chamber or the bottom of the wash chamber. In one embodiment, the flexible landing zone forms a ramp or the flexible landing zone has a reticulated structure. By the design, the product to be cleaned can be conveniently and quickly automatically output to the cleaning cavity, or the cleaning cavity automatically receives the product to be cleaned, so that the processing efficiency is greatly improved. Further, in one embodiment, the machine body is provided with a C-shaped or U-shaped transmission structure, a plurality of cleaning positions are arranged on the transmission structure, each cleaning position is used for fixing a product to be cleaned, and the transmission structure is partially positioned in the cleaning cavity or the cleaning area of the cleaning cavity; further, a product to be cleaned is fixed on the cleaning position; by means of the design, an automatic ultrasonic cleaning mode can be formed, one product to be cleaned is fixed at one cleaning position, is automatically transmitted to the cleaning cavity to be subjected to ultrasonic cleaning, and then is automatically output, so that labor cost is greatly saved, and cleaning efficiency is improved. Further, in one embodiment, the ultrasonic cleaning device further includes a heating device disposed in the cleaning chamber, and the heating device is configured to heat the cleaning liquid in the cleaning chamber. Further, in one embodiment, the heating device is electrically connected with the control switch through a lead, and in one embodiment, the heating device is controlled in linkage with the ultrasonic generator. By the design, the cleaning temperature can be conveniently increased, and a better cleaning effect is achieved. Further, in one embodiment, the ultrasonic cleaning device further includes a vibration device disposed on the base, the machine body is fixed to the vibration device, and the vibration device is configured to vibrate the machine body; or the ultrasonic cleaning device further comprises a vibration device arranged in the installation cavity, the ultrasonic generator is fixed on the vibration device, and the vibration device is used for vibrating the ultrasonic generator; such a design is beneficial for obtaining a better cleaning effect. Further, in one embodiment, the ultrasonic cleaning device further includes a cover body for covering the opening. Such design is favorable to dustproof on the one hand, and on the other hand also is favorable to avoiding the accident.

Other embodiments of the present application further include an LED aluminum alloy lamp housing and a processing apparatus, which are formed by combining technical features of the above embodiments.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present application shall be subject to the appended claims.

Claims (10)

1. An LED aluminum alloy lamp tube shell comprises a shell body, wherein the shell body is provided with an opening area, and a main mounting area, a cover plate mounting area and a circuit mounting area are formed in the shell body; the LED aluminum alloy lamp tube is characterized in that at least two reinforcing roots are arranged in the outer shell of the LED aluminum alloy lamp tube, and the reinforcing roots are respectively connected to form a structure of the main mounting area;

a contraction area is formed between the cover plate mounting area and the main mounting area;

the number of the circuit mounting areas is one pair, and the pair of the circuit mounting areas and the main mounting area are arranged at intervals;

each reinforcing root and the outer shell jointly form a through cavity, and the through cavities are arranged at intervals with the main mounting area and the pair of circuit mounting areas;

the LED aluminum alloy lamp tube shell is provided with a connecting part and two symmetrical groups of structural bodies in the shell body;

each group of structure bodies comprises a coarsening part, a supporting part, an inclined and contracted part, an inclined and expanded part, a bearing part, an intermediate part, a thickening part, a clamping part and a clamping arm;

the outer shell is provided with two tail end parts at the opening area, and each tail end part is matched with one coarsening part and one supporting part to jointly enclose one end of a cover plate installation area;

the coarsening part, the supporting part, the inclined shrinking part, the inclined expanding part, the bearing part and the middle part are sequentially connected;

the middle part is connected with the connecting part at the end part and is connected with the outer shell through the reinforcing root;

the inclined expansion part, the bearing part and the middle part together enclose one end of a main mounting area;

the thickening part is connected with the outer shell, the clamping part and the clamping arm are respectively connected with the thickening part, the clamping part and the clamping arm are arranged in a non-contact mode, and the thickening part, the clamping part and the clamping arm jointly enclose a circuit installation area;

the inclined parts of the two groups of the structures are oppositely arranged and matched to form the contraction area.

2. The LED aluminum alloy lamp tube shell as claimed in claim 1, wherein the side of the inclined part facing the shrinking section is further provided with a reflective layer or the side of the inclined part facing the shrinking section is provided with a reflective surface layer or the side of the inclined part facing the shrinking section is smoothed to reflect light.

3. The LED aluminum alloy lamp tube housing of claim 1, wherein said reinforcing roots are two in number, and each of said structural bodies includes one of said reinforcing roots.

4. The LED aluminum alloy lamp tube housing of claim 3, wherein said two sets of structural bodies comprise a first set of structural bodies and a second set of structural bodies, and said circuit mount areas comprise a first circuit mount area and a second circuit mount area;

the first group of structure bodies comprise a first coarsening part, a first supporting part, a first inclined and contracted part, a first inclined and expanded part, a first bearing part, a first intermediate part, a first reinforcing root, a first thickening part, a first clamping part and a first clamping arm;

the second group of structural bodies comprise a second coarsening part, a second supporting part, a second inclined and contracted part, a second inclined and expanded part, a second bearing part, a second intermediate part, a second reinforcing root, a second thickening part, a second clamping part and a second clamping arm;

the outer shell has a first end portion and a second end portion at the opening area; the first tail part is matched with the first coarsening part and the first supporting part to form a first end of the cover plate mounting area together in a surrounding mode, and the second tail part is matched with the second coarsening part and the second supporting part to form a second end of the cover plate mounting area together in a surrounding mode;

the first coarsening part, the first supporting part, the first inclined and contracted part, the first inclined and expanded part, the first bearing part, the first section and the first reinforcing root are sequentially connected; the first section is connected with the connecting part at the end part of the first section, and one end of the first reinforcing root, which is far away from the first section, is connected with the outer shell; the first inclined expanding part, the first bearing part and the first section part jointly enclose a first end of a main mounting area;

the first thickening part is connected with the outer shell, the first clamping part and the first clamping arm are respectively connected with the first thickening part, the first clamping part and the first clamping arm are arranged in a non-contact mode, and the first thickening part, the first clamping part and the first clamping arm together enclose a first line installation area;

the first coarsening part, the first supporting part, the first inclined and contracted part, the first inclined and expanded part, the first bearing part, the first section and the first reinforcing root further form a first line cavity together with the outer shell;

the second coarsening part, the second support part, the second inclined and contracted part, the second inclined and expanded part, the second bearing part, the second section and the second reinforcing root are sequentially connected and arranged; the second section is connected with the connecting part at the end part of the second section, and one end of the second reinforcing root, which is far away from the second section, is connected with the outer shell; the second inclined expanding part, the second bearing part and the second section part jointly enclose a second end of the main mounting area;

the second thickening part is connected with the outer shell, the second clamping part and the second clamping arm are respectively connected with the second thickening part, the second clamping part and the second clamping arm are arranged in a non-contact mode, and the second thickening part, the second clamping part and the second clamping arm together enclose a second line installation area;

the second coarsening part, the second support part, the second inclined and contracted part, the second inclined and expanded part, the second bearing part, the second section and the second reinforcing root further form a second line cavity together with the outer shell;

the first inclined and contracted part and the second inclined and contracted part are oppositely arranged and matched to form the contracted area.

5. The LED aluminum alloy lamp tube housing of claim 4, wherein the outer housing, the first terminal portion, the first roughened portion, the first support portion, the first inclined portion, the first bearing portion, the first intermediate portion, the first reinforcing root, the first thickened portion, the first clamping arm, the connecting portion, the second terminal portion, the second roughened portion, the second support portion, the second inclined portion, the second bearing portion, the second intermediate portion, the second reinforcing root, the second thickened portion, the second clamping portion, and the second clamping arm are integrally formed.

6. The LED aluminum alloy lamp tube shell as claimed in claim 2, wherein the inclined and expanded portions are formed with a contracted position at a position where the contracted region is closest to the main mounting region.

7. The LED aluminum alloy lamp tube housing as claimed in claim 2, wherein the terminal portion is provided with a bent portion at an end thereof near the cover plate mounting area toward the main mounting area; alternatively, the tip portion is provided with a deformation protrusion or a friction thickening layer on a surface thereof facing the main mounting region.

8. The LED aluminum alloy lamp tube shell as claimed in claim 1, wherein three groove areas are recessed on the outer side of the outer shell away from the main mounting area, and each groove area comprises at least two grooves, and the extending direction of each groove is the same as the extending direction of the outer shell.

9. The LED aluminum alloy lamp tube shell as claimed in any one of claims 1 to 8, wherein the outer shell is provided with a plurality of through holes at positions where the through cavities are formed, and the through cavities are communicated with the outside through the through holes.

10. A processing apparatus, comprising the LED aluminum alloy lamp housing according to any one of claims 1 to 9 and a fixing assembly for fixing the LED aluminum alloy lamp housing.

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